Futurists take what we know now and project into the future ideas about things will be like years from today using the models that have worked consistently up to now. Those models applied to human systems are changing quickly making marketing the future based on them senseless and potentially dangerous.

Earlier this past week a post on FastCoExist caught my attention and brought to mind why I have such an uneasy relationship with futurists and futures as a field. The post, 8 Ways the World Will Change in 2052, is look at the next 40 years written by Jorgen Randers, a professor of climate strategy at the BI Norwegian Business School and written with all the confident swagger that typifies futurists making statements about what is to come. After all, it’s hard to draw an audience (and the benefits that comes with that) when you don’t have a confident answer on your subject matter — even if that answer is wrong. In this latest post in the series on marketing complexity I look at futurists and their predictions and what it could mean for making sense of the threats and opportunities we will face in the years to come.

The Mathematical Problem of Futures and Complexity

The FastCoExist article paints a picture of a world that looks a lot like the one we have today, just with some shifts in economic and social structures. It suggests that much will remain the same even though a few key things will change, but our general relations will remain constant. It is that consistency that raises my concerns about futurist thinking (not all, to be sure) and its use of the data today to make predictions tomorrow. There is an assumption of linearity that weaves its way through the narratives spun by futurists that do not fit with how complex systems behave, nor does it account for the network effects created by interconnected systems.

Where I live now (Toronto), we have seen an almost uninterrupted heat wave for more than three weeks and that is forecast to continue for the week to come. This is the hottest year in recorded history (video), and as this short news clip shows the implications are many. At our current level of focus the implications may seem slight: changing growing conditions for gardens, better cottage swimming weather, brown lawns etc.. But at another scale and perspective, the interconnections between these things will start to reveal themselves if the pattern continues.

It is here where I see futurists getting it wrong as their predicts rest on largely linear trajectories of change and scientific knowledge that uses linear models to create predictions. The mistake is taking linear phenomenon and grafting that knowledge on to complex cases, while another mistake is taking science that works for static things and applying it to dynamic objects.

Complexity often produces change curves that follow a Pareto distribution, which is a way of accounting for things like ‘tipping points’, and is rarely linear in its effects for long periods of time. As the news report mentions, Toronto has an average temperature of 3.5 degrees higher than normal in a single year. It could be an aberration, but when we see record-breaking temperatures for years on end that looks like a pattern forming.

Climate change is not just about things getting warmer, cooler, wetter or dryer. From a human standpoint, how we adapt to these changes is what counts and in a networked world is that adaptations happen simultaneously and in a dynamic, interconnected manner. That means that many things change at the same time and that the relationship between dynamic objects means that the overall quantity and rate of change in the system is likely to be logarithmic (exponential) not additive.

Reframing change models: the language of complex systems.

If we are to create models that are more useful to us, we need to develop them with complexity in mind, think in systems and act as designers. To do this requires a change in the thinking models we use and the ways we communicate these models to the wider world. Yet, it isn’t as alien as it seems; we do it all the time with ourselves in explaining our social lives.

A child goes from being peaceful and quiet to a tantrum in a matter of seconds.

A calm, composed individual bursts into tears at a seemingly random event.

A polite, warm conversation quickly turns cold at the slightest mention of a particular phenomenon

In many of these cases the ’cause’ might not be obvious. An example I use with my students is this:

Imagine a couple in their bedroom and one partner sees a wayward sock that has been left on floor and gets intensely angry at the other partner upon discovery of the sock. Why? Is is that the sock on the floor is so problematic that it reduces an otherwise peaceful environment into a space of conflict? Is the sock really that bad? Or is the sock a catalyst for something else? Does it represent something (or many things) that are embodied in the sock being left carelessly on the floor? Does the sock serve as a vessel for accumulated grievances and stressors only loosely related to its position on the floor?

This example of the sock illustrates how a Pareto distribution of social tensions in a relationship could be expressed. It points to how the most ‘obvious’ linear answer might not always be the case even if initial appearance suggest a relationship.

Explaining the reasons for problems opens a door to solving them. But we can do more.

The power of weak signals

The way to interject into a complex system is not to pay attention to everything all of the time, but to small things that show patterns. Eric Berlow has a remarkable 3 minute TED talk that illustrates how signals can be extracted from networks to reveal simplicity in complexity. A 2008 paper in the journal Physical Review shows the ways in which weak signals can be detected by reducing the overall volume of information or nodes in a network.

But what to pay attention to? This is where mindful evaluation and attention comes in. Mindfulness is not just a way to connect to one’s inner life, but also the outer world around us. A mindful approach to monitoring and evaluation means watching what happens around us and positioning tools, metrics and data gathering processes to give us the necessary feedback on our systems around us. To take the example of the couple’s conflict over the sock, paying attention within the relationship to minor conflicts, areas of tention, and moments of release earlier could have diffused energy enough to mean the sock was just a sock.

In social systems, this means paying attention to areas of intersection where natural tensions occur due to difference. These differences could be perspective, attitude, knowledge, beliefs or capabilities. These points of intersection are often where novelty emerges and innovation takes place, but they are also where deeper problems can begin. Constant, evolving and dynamic methods of data collection that recognizes change in non-linear and linear forms is more likely to enable the sorts of weak signal detection that can help us see the future more clearly.

That can help us make sense of future possibilities, rather than make empty predictions that guide what we do now at the expense of paying attention to what might come (and what is really happening).